/*
 * \brief  Genode USB client provider C-API
 * \author Sebastian Sumpf
 * \author Stefan Kalkowski
 * \date   2023-06-29
 */

/*
 * Copyright (C) 2023 Genode Labs GmbH
 *
 * This file is part of the Genode OS framework, which is distributed
 * under the terms of the GNU Affero General Public License version 3.
 */

#include <base/id_space.h>
#include <base/heap.h>
#include <base/tslab.h>
#include <util/bit_allocator.h>
#include <util/reconstructible.h>
#include <util/list_model.h>
#include <util/string.h>

#include <usb_session/device.h>
#include <genode_c_api/usb_client.h>

using namespace Genode;

struct Device;

struct Endpoint : List_model<Endpoint>::Element
{
	uint8_t  const address;
	uint8_t  const attributes;
	uint16_t const max_packet_size;

	Endpoint(Node const &n)
	:
		address(n.attribute_value<uint8_t>("address", 0xff)),
		attributes(n.attribute_value<uint8_t>("attributes", 0xff)),
		max_packet_size(n.attribute_value<uint16_t>("max_packet_size", 0)) {}

	bool matches(Node const &node) const {
		return address == node.attribute_value<uint8_t>("address", 0xff); }

	static bool type_matches(Node const &node) {
		return node.has_type("endpoint"); }
};


class Interface : public List_model<::Interface>::Element
{
	public:

		class Urb : Usb::Endpoint, public Usb::Interface::Urb
		{
			private:

				friend class ::Interface;
				using Pdesc = Usb::Interface::Packet_descriptor;

				static Pdesc::Type _type(genode_usb_client_iface_type_t t)
				{
					switch(t) {
						case ::BULK:  return Pdesc::BULK;
						case ::IRQ:   return Pdesc::IRQ;
						case ::ISOC:  return Pdesc::ISOC;
						case ::FLUSH: return Pdesc::FLUSH;
					};
					return Pdesc::FLUSH;
				}

				struct Driver_data { void * const data; } _driver_data;

			public:

				Urb(::Interface                   &iface,
				    ::Endpoint                    &endp,
				    genode_usb_client_iface_type_t type,
				    size_t                         size,
				    void                          *opaque_data)
				:
					Usb::Endpoint(endp.address, endp.attributes),
					Usb::Interface::Urb(iface._session(), *this, _type(type),
					                    size, 0),
					_driver_data{opaque_data} {}
		};

	private:

		Device                       &_device;
		Constructible<Usb::Interface> _iface {};
		List_model<Endpoint>          _endpoints {};
		uint8_t const                 _number;
		uint8_t const                 _alt_setting;
		bool                          _active;
		Tslab<Urb, 4096>              _slab;

		/* The interface's buffer size might be configureable in the future */
		size_t _buf_size { 4096 * 128 };

		Usb::Interface &_session();

	public:

		Interface(Device &device, Node const &n, Allocator &alloc)
		:
			_device(device),
			_number(n.attribute_value<uint8_t>("number", 0xff)),
			_alt_setting(n.attribute_value<uint8_t>("alt_setting", 0xff)),
			_active(n.attribute_value("active", false)),
			_slab(alloc) {}

		~Interface()
		{
			if (_iface.constructed())
				_iface->dissolve_all_urbs<Urb>([&] (Urb &urb) {
					destroy(_slab, &urb); });
		}

		uint8_t number()      const { return _number; };
		uint8_t alt_setting() const { return _alt_setting; };
		bool    active()      const { return _active; }

		void active(bool active) { _active = active; }

		Allocator &slab() { return _slab; }

		bool matches(Node const &n) const
		{
			uint8_t nr  = n.attribute_value<uint8_t>("number", 0xff);
			uint8_t alt = n.attribute_value<uint8_t>("alt_setting", 0xff);
			return _number == nr && _alt_setting == alt;
		}

		static bool type_matches(Node const &node) {
			return node.has_type("interface"); }

		void update(Allocator &alloc, Node const &node)
		{
			_active = node.attribute_value("active", false);
			_endpoints.update_from_node(node,

				/* create */
				[&] (Node const &node) -> Endpoint & {
					return *new (alloc) Endpoint(node); },

				/* destroy */
				[&] (Endpoint &endp) {
					destroy(alloc, &endp); },

				/* update */
				[&] (Endpoint &, Node const &) { }
			);
		}

		void update(genode_usb_client_produce_out_t      out,
		            genode_usb_client_consume_in_t       in,
		            genode_usb_client_produce_out_isoc_t out_isoc,
		            genode_usb_client_consume_in_isoc_t  in_isoc,
		            genode_usb_client_complete_t         complete)
		{
			if (!_iface.constructed())
				return;

			_iface->update_urbs<Urb>(

				/* produce out content */
				[&] (Urb &urb, Byte_range_ptr &dst) {
					out(urb._driver_data.data, { dst.start, dst.num_bytes });
				},

				/* consume in results */
				[&] (Urb &urb, Const_byte_range_ptr &src) {
					in(urb._driver_data.data,
					   { src.start, src.num_bytes });
				},

				/* produce out content */
				[&] (Urb &urb, uint32_t idx, Byte_range_ptr &dst) {
					return out_isoc(urb._driver_data.data, idx,
					                { dst.start, dst.num_bytes });
				},

				/* consume in results */
				[&] (Urb &urb, uint32_t idx, Const_byte_range_ptr &src) {
					in_isoc(urb._driver_data.data, idx,
					        { src.start, src.num_bytes });
				},

				/* complete USB request */
				[&] (Urb &urb, Usb::Tagged_packet::Return_value v) {
					using Retval = Usb::Tagged_packet::Return_value;
					genode_usb_client_ret_val_t ret;

					switch (v) {
					case Retval::NO_DEVICE: ret = NO_DEVICE; break;
					case Retval::INVALID:   ret = INVALID;   break;
					case Retval::HALT:      ret = HALT;      break;
					case Retval::OK:        ret = OK;        break;
					default:
						error("unhandled packet or timeout should not happen!");
						ret = INVALID;
					};
					complete(urb._driver_data.data, ret);
					destroy(_slab, &urb);
				});
		}

		template <typename FN>
		void with_endpoint(uint8_t index, FN const &fn)
		{
			_endpoints.for_each([&] (Endpoint &endp) {
				if (endp.address == index) fn(endp);
			});
		}

		void delete_all_urbs(genode_usb_client_complete_t complete)
		{
			if (!_iface.constructed()) return;

			_iface->dissolve_all_urbs<Urb>([&] (Urb &urb) {
				complete(urb._driver_data.data, NO_DEVICE);
				destroy(_slab, &urb);
			});
		}
};


class Device : public List_model<Device>::Element
{
	public:

		using Name  = String<64>;
		using Speed = String<32>;

		struct Urb : Usb::Device::Urb
		{
			using Descriptor   = Usb::Device::Packet_descriptor;
			using Request_type = Descriptor::Request_type;

			struct Driver_data { void * const data; } _driver_data;

			Urb(Device  &device,
			    uint8_t  request,
			    uint8_t  request_type,
			    uint16_t value,
			    uint16_t index,
			    size_t   size,
			    size_t   timeout,
			    void    *opaque_data)
			:
				Usb::Device::Urb(device._device, request,
				                 (Request_type::access_t)request_type,
				                 value, index, size, timeout),
				_driver_data{opaque_data} {}

			bool set_interface() const;

			uint16_t index() const { return _index; }
			uint16_t value() const { return _value; }
		};

	private:

		Name                      const _name;
		Speed                     const _speed;
		Id_space<Device>::Element const _elem;
		Usb::Device                     _device;
		Signal_context_capability       _sigh_cap;
		void                           *_driver_data { nullptr };
		List_model<::Interface>         _ifaces {};
		Tslab<Urb, 4096>                _slab;

		enum State { AVAIL, REMOVED } _state { AVAIL };

		/**
		 * Noncopyable
		 */
		Device(Device const &);
		Device &operator = (Device const &);

		friend class Session;

		void _delete_all_urbs(genode_usb_client_complete_t complete)
		{
			_device.dissolve_all_urbs<Urb>([&] (Urb &urb) {
				complete(urb._driver_data.data, NO_DEVICE);
				destroy(_slab, &urb);
			});

			_ifaces.for_each([&] (::Interface &iface) {
				iface.delete_all_urbs(complete); });
		}

	public:

		Device(Name                     &name,
		       Speed                    &speed,
		       Usb::Connection          &usb,
		       Allocator                &alloc,
		       Env::Local_rm            &rm,
		       Id_space<Device>         &space,
		       Signal_context_capability cap)
		:
			_name(name),
			_speed(speed),
			_elem(*this, space),
			_device(usb, alloc, rm, name),
			_sigh_cap(cap),
			_slab(alloc)
		{
			_device.sigh(_sigh_cap);
		}

		~Device()
		{
			_device.dissolve_all_urbs<Urb>([&] (Urb &urb) {
				destroy(_slab, &urb); });
		}

		Usb::Device &session() { return _device; }

		Name name() { return _name; }

		Usb_speed speed()
		{
			if (_speed == "low")        return GENODE_USB_SPEED_LOW;
			if (_speed == "full")       return GENODE_USB_SPEED_FULL;
			if (_speed == "high")       return GENODE_USB_SPEED_HIGH;
			if (_speed == "super")      return GENODE_USB_SPEED_SUPER;
			if (_speed == "super_plus") return GENODE_USB_SPEED_SUPER_PLUS;
			if (_speed == "super_plus_2x2")
				return GENODE_USB_SPEED_SUPER_PLUS_2X2;
			return GENODE_USB_SPEED_FULL;
		}

		Signal_context_capability sigh_cap() { return _sigh_cap; }

		genode_usb_client_dev_handle_t handle() const {
			return _elem.id().value; }

		void  driver_data(void *data) { _driver_data = data; }
		void* driver_data()           { return _driver_data; }

		Allocator &slab() { return _slab; }

		bool matches(Node const &node) const {
			return _name == node.attribute_value("name", Name()); }

		static bool type_matches(Node const &node) {
			return node.has_type("device"); }

		void set_interface(uint16_t index, uint16_t value);

		void update(Allocator &alloc, Node const &node)
		{
			auto with_active_config = [] (Node const &node, auto const &fn)
			{
				bool found = false;
				node.for_each_sub_node("config", [&] (Node const &config) {
					if (!found && config.attribute_value("active", false)) {
						fn(config);
						found = true;
					}
				});
				if (!found)
					fn(node);
			};

			with_active_config(node, [&] (Node const &active_config) {
				_ifaces.update_from_node(active_config,

					/* create */
					[&] (Node const &node) -> ::Interface & {
						return *new (alloc) ::Interface(*this, node, alloc); },

					/* destroy */
					[&] (::Interface &iface) {
						iface.update(alloc, Node());
						destroy(alloc, &iface); },

					/* update */
					[&] (::Interface &iface, Node const &node) {
						iface.update(alloc, node); }
				);
			});
		}

		void update(genode_usb_client_produce_out_t      out,
		            genode_usb_client_consume_in_t       in,
		            genode_usb_client_produce_out_isoc_t out_isoc,
		            genode_usb_client_consume_in_isoc_t  in_isoc,
		            genode_usb_client_complete_t         complete)
		{
			if (_state == REMOVED) {
				_delete_all_urbs(complete);
				return;
			}

			_device.update_urbs<Urb>(

				/* produce out content */
				[&] (Urb &urb, Byte_range_ptr &dst) {
					out(urb._driver_data.data, { dst.start,
					                             dst.num_bytes });
				},

				/* consume in results */
				[&] (Urb &urb, Const_byte_range_ptr &src) {
					in(urb._driver_data.data, { src.start,
					                            src.num_bytes });
				},

				/* complete USB request */
				[&] (Urb &urb, Usb::Tagged_packet::Return_value v)
				{
					using Retval = Usb::Tagged_packet::Return_value;
					genode_usb_client_ret_val_t ret;

					switch (v) {
					case Retval::NO_DEVICE: ret = NO_DEVICE; break;
					case Retval::INVALID:   ret = INVALID;   break;
					case Retval::HALT:      ret = HALT;      break;
					case Retval::TIMEOUT:   ret = TIMEOUT;   break;
					case Retval::OK:
						ret = OK;
						if (urb.set_interface())
							set_interface(urb.index(), urb.value());
						break;
					default:
						error("unhandled packet should not happen!");
						ret = INVALID;
					};

					complete(urb._driver_data.data, ret);
					destroy(_slab, &urb);
				});

			_ifaces.for_each([&] (::Interface &iface) {
				iface.update(out, in, out_isoc, in_isoc, complete); });
		}

		template <typename FN>
		void with_active_interfaces(FN const &fn)
		{
			_ifaces.for_each([&] (::Interface &iface) {
				if (iface.active()) fn(iface); });
		}
};


struct Session
{
	Env                      &_env;
	Allocator                &_alloc;
	Signal_context_capability _handler_cap;
	Usb::Connection           _usb { _env };
	List_model<Device>        _model {};
	Id_space<Device>          _space {};

	Session(Env &env, Allocator &alloc, Signal_context_capability io_cap,
	        Signal_context_capability rom_cap)
	:
		_env(env), _alloc(alloc), _handler_cap(io_cap)
	{
		_usb.sigh(rom_cap);
	}

	~Session() {
		_model.for_each([&] (Device &dev) { destroy(_alloc, &dev); }); }

	void update(genode_usb_client_dev_add_t add,
	            genode_usb_client_dev_del_t del)
	{
		_usb.with_node([&] (Node const &node) {
			_model.update_from_node(node,

				/* create */
				[&] (Node const &node) -> Device &
				{
					Device::Name name =
						node.attribute_value("name", Device::Name());
						Device::Speed speed =
						node.attribute_value("speed", Device::Speed());
					Device &dev = *new (_alloc)
						Device(name, speed, _usb, _alloc, _env.rm(),
						       _space, _handler_cap);
					return dev;
				},

				/* destroy */
				[&] (Device &dev)
				{
					dev._state = Device::REMOVED;
					if (dev.driver_data()) del(dev.handle(), dev.driver_data());
					dev.update(_alloc, Node());
					destroy(_alloc, &dev);
				},

				/* update */
				[&] (Device &dev, Node const &node)
				{
					dev.update(_alloc, node);
				}
			);
		});

		/* add new devices for C-API client after it got successfully added */
		_model.for_each([&] (Device &dev) {
			if (!dev.driver_data())
				dev.driver_data(add(dev.handle(), dev.name().string(),
				                    dev.speed()));
		});
	}
};


Usb::Interface &::Interface::_session()
{
	if (!_iface.constructed()) {
		_iface.construct(_device.session(),
		                 Usb::Interface::Index{_number, _alt_setting},
		                 _buf_size);
		_iface->sigh(_device.sigh_cap());
	}
	return *_iface;
};


bool Device::Urb::set_interface() const
{
	return (_request == Descriptor::SET_INTERFACE) &&
	       (Request_type::R::get(_request_type) == Descriptor::IFACE) &&
	       (Request_type::T::get(_request_type) == Descriptor::STANDARD);
}


void Device::set_interface(uint16_t index, uint16_t value)
{
	_ifaces.for_each([&] (::Interface &iface) {
		if (iface.number() != index)
			return;
		iface.active(iface.alt_setting() == value);
	});
}


static ::Session * _usb_session = nullptr;


void Genode_c_api::initialize_usb_client(Env                      &env,
                                         Allocator                &alloc,
                                         Signal_context_capability io_handler,
                                         Signal_context_capability rom_handler)
{
	static ::Session session(env, alloc, io_handler, rom_handler);
	_usb_session = &session;
};


extern "C"
void genode_usb_client_update(genode_usb_client_dev_add_t add,
                              genode_usb_client_dev_del_t del)
{
	if (_usb_session) _usb_session->update(add, del);
}


extern "C"
genode_usb_client_ret_val_t
genode_usb_client_device_control(genode_usb_client_dev_handle_t handle,
                                 genode_uint8_t                 request,
                                 genode_uint8_t                 request_type,
                                 genode_uint16_t                value,
                                 genode_uint16_t                index,
                                 unsigned long                  size,
                                 unsigned long                  timeout,
                                 void                          *opaque_data)
{
	try {
		if (!_usb_session)
			return NO_DEVICE;

		return _usb_session->_space.apply<Device>({ handle },
		                                          [&] (Device &device) {
			new (device.slab())
				Device::Urb(device, request, request_type,
				            value, index, size, timeout, opaque_data);
			return OK;
		});
	} catch(Id_space<Device>::Unknown_id&) {
		return NO_DEVICE;
	} catch(...) {
		return NO_MEMORY;
	}
}


extern "C"
void
genode_usb_client_device_update(genode_usb_client_produce_out_t      out,
                                genode_usb_client_consume_in_t       in,
                                genode_usb_client_produce_out_isoc_t out_isoc,
                                genode_usb_client_consume_in_isoc_t  in_isoc,
                                genode_usb_client_complete_t         complete)
{
	try {
		if (!_usb_session)
			return;
		_usb_session->_model.for_each([&] (Device &device) {
			device.update(out, in, out_isoc, in_isoc, complete); });

	} catch(...) { }
}


extern "C"
genode_usb_client_ret_val_t
genode_usb_client_iface_transfer(genode_usb_client_dev_handle_t handle,
                                 genode_usb_client_iface_type_t type,
                                 genode_uint8_t                 index,
                                 unsigned long                  size,
                                 void                          *opaque_data)
{
	try {
		if (!_usb_session)
			return NO_DEVICE;

		genode_usb_client_ret_val_t ret = NO_DEVICE;

		_usb_session->_space.apply<Device>({ handle },
		                                   [&] (Device &device) {
			device.with_active_interfaces([&] (::Interface &iface) {
				iface.with_endpoint(index, [&] (Endpoint &endp) {
					new (iface.slab())
						::Interface::Urb(iface, endp, type, size, opaque_data);
					ret = OK;
				});
			});
		});

		return ret;
	} catch(Id_space<Device>::Unknown_id&) {
		return NO_DEVICE;
	} catch(...) {
		return NO_MEMORY;
	}
}
